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EP2525199A1 - Elément de traitement ou de diagnostic médical, notamment dentaire - Google Patents

Elément de traitement ou de diagnostic médical, notamment dentaire Download PDF

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Publication number
EP2525199A1
EP2525199A1 EP11166639A EP11166639A EP2525199A1 EP 2525199 A1 EP2525199 A1 EP 2525199A1 EP 11166639 A EP11166639 A EP 11166639A EP 11166639 A EP11166639 A EP 11166639A EP 2525199 A1 EP2525199 A1 EP 2525199A1
Authority
EP
European Patent Office
Prior art keywords
data
coil
treatment element
medical
diagnostic
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP11166639A
Other languages
German (de)
English (en)
Inventor
Christian Pruckner
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
W&H Dentalwerk Buermoos GmbH
Original Assignee
W&H Dentalwerk Buermoos GmbH
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by W&H Dentalwerk Buermoos GmbH filed Critical W&H Dentalwerk Buermoos GmbH
Priority to EP11166639A priority Critical patent/EP2525199A1/fr
Publication of EP2525199A1 publication Critical patent/EP2525199A1/fr
Withdrawn legal-status Critical Current

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Classifications

    • GPHYSICS
    • G01MEASURING; TESTING
    • G01KMEASURING TEMPERATURE; MEASURING QUANTITY OF HEAT; THERMALLY-SENSITIVE ELEMENTS NOT OTHERWISE PROVIDED FOR
    • G01K7/00Measuring temperature based on the use of electric or magnetic elements directly sensitive to heat ; Power supply therefor, e.g. using thermoelectric elements
    • G01K7/02Measuring temperature based on the use of electric or magnetic elements directly sensitive to heat ; Power supply therefor, e.g. using thermoelectric elements using thermoelectric elements, e.g. thermocouples
    • G01K7/04Measuring temperature based on the use of electric or magnetic elements directly sensitive to heat ; Power supply therefor, e.g. using thermoelectric elements using thermoelectric elements, e.g. thermocouples the object to be measured not forming one of the thermoelectric materials
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61CDENTISTRY; APPARATUS OR METHODS FOR ORAL OR DENTAL HYGIENE
    • A61C1/00Dental machines for boring or cutting ; General features of dental machines or apparatus, e.g. hand-piece design
    • A61C1/08Machine parts specially adapted for dentistry
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61CDENTISTRY; APPARATUS OR METHODS FOR ORAL OR DENTAL HYGIENE
    • A61C1/00Dental machines for boring or cutting ; General features of dental machines or apparatus, e.g. hand-piece design
    • A61C1/08Machine parts specially adapted for dentistry
    • A61C1/14Tool-holders, i.e. operating tool holders, e.g. burr holders
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01KMEASURING TEMPERATURE; MEASURING QUANTITY OF HEAT; THERMALLY-SENSITIVE ELEMENTS NOT OTHERWISE PROVIDED FOR
    • G01K13/00Thermometers specially adapted for specific purposes
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01KMEASURING TEMPERATURE; MEASURING QUANTITY OF HEAT; THERMALLY-SENSITIVE ELEMENTS NOT OTHERWISE PROVIDED FOR
    • G01K7/00Measuring temperature based on the use of electric or magnetic elements directly sensitive to heat ; Power supply therefor, e.g. using thermoelectric elements
    • G01K7/02Measuring temperature based on the use of electric or magnetic elements directly sensitive to heat ; Power supply therefor, e.g. using thermoelectric elements using thermoelectric elements, e.g. thermocouples
    • G01K7/021Particular circuit arrangements
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61BDIAGNOSIS; SURGERY; IDENTIFICATION
    • A61B17/00Surgical instruments, devices or methods
    • A61B2017/00017Electrical control of surgical instruments
    • A61B2017/00022Sensing or detecting at the treatment site
    • A61B2017/00084Temperature
    • A61B2017/00092Temperature using thermocouples
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01KMEASURING TEMPERATURE; MEASURING QUANTITY OF HEAT; THERMALLY-SENSITIVE ELEMENTS NOT OTHERWISE PROVIDED FOR
    • G01K2215/00Details concerning sensor power supply

Definitions

  • the present invention relates to a medical, in particular dental, diagnostic or treatment element with a device for direct or indirect action on a target area and a transmitting and / or receiving unit for non-contact data and / or energy transmission.
  • Such a diagnostic or treatment element is for example from the patent application EP 22 33 103 A2 known.
  • the diagnostic or treatment element in the form of a handle member comprises an outer sleeve, a arranged in the outer sleeve and displaceable in a drive movement hollow shaft for receiving a treatment tool and a first coil for inductive coupling with a second coil comprehensive storage unit of the treatment tool.
  • the two coils are part of a transmitting and / or receiving unit for contact or wireless, inductive data and / or energy transmission.
  • the present invention has for its object a medical, especially dental, diagnostic or treatment element, as it is known from the above-mentioned patent application to further develop such that it is equipped with an additional, so far not feasible function, in particular the be used in the diagnostic or treatment element components for the additional function, so that despite the extremely cramped space in the interior of a diagnostic or treatment element, in particular in the head area, the additional function can be implemented in the diagnostic or treatment element.
  • the diagnostic or treatment element has the following: A device for directly or indirectly acting on a target area and a data and / or energy transfer unit for non-contact data and / or energy transfer, wherein the data and / or energy transfer unit at least a first coil, Winding or antenna which for data and / or energy transfer without contact, in particular inductive, with a second coil, winding or antenna is coupled, and wherein the first coil, winding or antenna comprises a first material which is part of a thermocouple connection for measuring a Temperature reading of the diagnostic or treatment element or a component of the diagnostic or treatment element is.
  • the claim 13 relates to a corresponding method for measuring a temperature reading by means of a medical, in particular dental, diagnostic or treatment element.
  • the diagnostic or treatment element thus uses the known from the prior art transmitting and / or receiving unit for non-contact, inductive data and / or energy transmission, in particular their coil, winding or antenna, for implementing an additional function in the diagnosis or treatment element namely, for measuring the temperature in the diagnostic or treatment element.
  • the coil, winding or antenna is formed as a thermocouple or at least as part of a thermocouple.
  • no separate temperature sensor is therefore required for the temperature measurement in the diagnosis or treatment element, but components already used in the diagnosis or treatment element are utilized for the temperature measurement.
  • thermocouple includes a device that converts heat into electrical energy by thermoelectricity.
  • a thermocouple has two different electrically conductive materials, in particular metals or metal wires, which are interconnected at one end in order to be able to carry out temperature measurements.
  • a thermocouple thus preferably has a bimetallic thermal contact.
  • a temperature difference at the ends of the metals or metal wires creates electrical charge separation or electrical thermoelectric voltage due to the Seebeck effect within the two metals. This electrical potential difference is approximately proportional to the temperature difference at the ends of the metals.
  • further measures must be taken, for example the measurement of the ambient temperature, to which the temperature difference at the ends of the metals is added. Since the structure and function of a thermocouple are known, it will not be discussed further.
  • diagnostic or treatment element comprises in particular one-hand tangible medical or dental devices, for example straight or pistol-shaped diagnosis or treatment elements or handles, curved diagnostic or treatment elements or handles, which are often referred to in the dental field as elbows, parts of diagnostic or treatment elements, in particular a head portion of a diagnosis or treatment element, which is connectable, for example with detachable handle portions thereof, and couplings, adapters, connectors and drive units, for example electric or pneumatic motors.
  • cordless diagnostic or treatment elements in particular with a replaceable or rechargeable energy source, as well as diagnostic or treatment elements, which include a supply line and an associated control, regulating and / or supply unit.
  • device for direct or indirect action on a target area is understood in particular to mean any device which, by using energy and / or release of matter and / or energy, onto a target area, in particular an animal or human tissue or an animal or human Tissue substituting material, for example a prosthesis, acts, in particular acts therapeutically or diagnostically.
  • the action of the device on a target area takes place, for example, by exposing a target area to energy and / or matter, by illuminating, scanning, ablating tissue or tissue replacement material, in particular hard tissue and bone, removing tissue or tissue replacement material, for Example, by blowing away, washing away, etching, dissolving, etc., by the application of a replacement material, filling material, by the delivery of a drug, drug or anesthetic, by triggering a chemical or physical reaction in or on a tissue or tissue replacement material, etc.
  • the A device for acting on a target area comprises according to directly acting on the target area devices, for example tools, in particular abrasive tools such as drills, milling, saws, files, reamer, scalpels, etc.
  • Example drives for directly to the target area et acting devices for example electric or pneumatic drives or parts thereof, in particular shafts, gears, wheels, etc., nozzles or discharge openings for the delivery of matter to the target area, radiation sources, optical elements for radiation, in particular laser radiation, optical fibers, etc.
  • the first material of the coil, winding or antenna which is part of the thermocouple or the thermocouple compound comprises an electrically conductive material, in particular a metal, for example copper, or a metal wire, for example a copper wire, in particular a copper wire such as it is conventionally used as an electrical conductor or as a conductor on printed circuit boards.
  • the other electrically conductive material of the thermocouple or thermocouple compound includes, for example, a copper-nickel alloy (Konstantan) or other alloys containing, for example, nickel, chromium, iron or copper.
  • the first coil, winding or antenna on a second material, so that the thermocouple connection is formed by the coil, winding or antenna.
  • an electrical conductor connected to the first coil, winding or antenna has a second material, so that the thermocouple connection is formed by the coil, winding or antenna and the electrical conductor connected thereto.
  • the coil, winding or antenna preferably consists of copper wire with which the electrical conductor consisting of the second material is connected.
  • At least one common processing and / or evaluation element is provided for the temperature measurement value determined by the thermocouple connection and the data and / or energy of the contactless data and / or energy transfer, in particular a common filter, signal splitter, amplifier or a common evaluation circuit for the data.
  • a common filter, signal splitter, amplifier or a common evaluation circuit for the data in particular a common filter, signal splitter, amplifier or a common evaluation circuit for the data.
  • a switching device for the selective transmission and / or processing of the of the Thermocouple determined temperature reading and the data and / or energy of non-contact data and / or energy transfer provided.
  • the switching device causes, for example, that a common processing and / or evaluation element is supplied temporally sequentially either with the temperature measurement or with the data and / or the energy of non-contact data and / or energy transfer.
  • the switching device may be formed, for example, as a signal switch or as a mechanical or digital switch, for example.
  • the diagnostic or treatment element comprises a head portion from which the device emits matter and / or energy to the target area for direct or indirect impact on a target area, wherein the thermocouple junction is arranged to match the temperature of at least a portion of the head portion or a component of the head portion measures, wherein the thermocouple compound is arranged in particular in or on the head portion. Since the head section is arranged particularly close to the patient or at the preparation site or the target area during operation of the diagnosis or treatment element, it is advantageous during the Operate the temperature of at least a portion of the head portion or a component of the head portion determined by the thermocouple compound to prevent injury to the patient, for example, burns.
  • the diagnostic or treatment element has a tool holding and releasing device for releasably connecting a tool to the diagnosis or treatment element, wherein the thermocouple connection is arranged such that it at least a portion of the tool holding and releasing device or in the area the tool holding and releasing device measures.
  • the thermocouple connection is arranged such that it at least a portion of the tool holding and releasing device or in the area the tool holding and releasing device measures.
  • the diagnosis or treatment element has a control and / or regulating device which is designed to compare the temperature measured value determined by means of the thermocouple connection with a temperature limit value and, when the temperature limit value is reached or exceeded, to act on the target area interrupt, in particular to stop a drive for the knitting device, and / or indicate the achievement or exceeding of the temperature limit by means of a display device. Both measures reduce in an advantageous manner negative effects of excessive heating of the diagnostic or treatment element or parts thereof in addition.
  • the transmitting and / or receiving unit is designed in particular for non-contact data transmission, where appropriate also for non-contact energy transmission, in the high-frequency or radio-frequency range.
  • the high-frequency range here preferably also includes the VHF (very high frequency) and the UHF (ultra high frequency) range.
  • the transmitting and / or receiving unit comprises an RFID tag or an RFID transponder, which in particular have an electronic chip.
  • the diagnosis or treatment element or the RFID tag or the RFID transponder or the electronic chip comprises a with the transmitting and / or receiving unit for non-contact data and / or energy transmission, in particular with the first coil, winding or antenna, connected, in particular rewritable, memory element which is adapted to store by means of the transmitting and / or receiving unit transferable data, in particular identification or operating data of the diagnosis or treatment element, for example, the the thermocouple compound determined temperature reading, or data on the cleaning or care of the diagnostic or treatment element.
  • a medical, in particular dental, treatment device comprises a medical, in particular dental, diagnosis or treatment element with a first coil, winding or antenna, which has a first material which forms part of a thermocouple connection for measuring the temperature in the diagnosis or treatment element or a component of the diagnosis - Is or treatment element, and a second coil, winding or antenna which for data and / or energy transfer contactless, in particular inductive, with the first coil, winding or antenna is coupled, wherein the second coil, winding or antenna preferably at one with the diagnosis or treatment element connectable connector part, active part, tool or drive part or on a separate from the diagnosis or treatment element reading and / or writing device is provided.
  • this treatment device in particular unidirectional or bidirectional data can thus be advantageously transmitted between the two coils.
  • thermocouple compound which comprises a first material of the first coil, winding or antenna, determines a temperature reading is and the temperature measurement or based on the temperature measured temperature data obtained by means of the first coil, winding or antenna contact, in particular inductive, transmitted.
  • the determination of the temperature measured value and the transmission of the temperature measured value or the temperature data take place with a time offset.
  • a simultaneous determination of the temperature measurement and transmission of the temperature measurement or the temperature data or other data using a filter for high-frequency and for low-frequency signals are possible.
  • FIGS. 3A and 3B show two embodiments of a coil or winding, which are part of a thermocouple connection.
  • FIG. 3C shows a further embodiment of a first coil or winding, which is part of a thermocouple compound, and a second coil or winding, which is inductively coupled for data and / or energy transfer with the first coil.
  • FIGS. 3D and 3E show two embodiments of antennas that are part of a thermocouple connection.
  • the Figures 1 and 2 show two separate medical, especially dental diagnostic or treatment elements, namely a handle element 1 and a releasably connected thereto, drivable by the handle element 1 treatment tool 4.
  • the medical, in particular dental, handle element 1 or handpiece has an outer sleeve 2 and consists of a handle portion 29 and a head portion or head portion 30.
  • a tool receiving opening 16 for receiving the treatment tool 4 is laterally provided, so that the tool 4 is arranged at an angle to the longitudinal axis 31 of the handle portion 29.
  • the tool 4 is according to the in the FIG. 1 illustrated embodiment designed as rotatable dental drill.
  • drive means 32 Inside the hollow, elongate handle portion 29 are drive means 32, in particular one or more drive shafts 33, which are connectable or connected to a motor.
  • the drive shaft 33 has at its end facing the head part 30, a gear 34 which meshes with another gear or pinion 35 in the head part 30.
  • the gear 35 is connected to a hollow shaft 3 or formed as part of the hollow shaft 3.
  • the hollow shaft 3 serves to receive the treatment tool 4, so that the drive movement of the motor via the shaft 33, the gears 34, 35 and the hollow shaft 3 comprehensive drive means 32 is transferable to the treatment tool 4.
  • the drive means 32 in particular the drive shaft 33, the gears 34, 35 and the hollow shaft 3, thus form a device 60 for indirect action on a target area.
  • the hollow shaft 3 is supported by two rolling bearings, in particular ball bearings 22, 36, rotatably mounted in the head portion 30 of the handle member 1. It has a rotational or central axis 8, an axial extent and a radial extent.
  • the hollow shaft 3 consists for example of metal, in particular of steel, but it can be made according to one embodiment also of an electrically non-conductive, in particular ceramic, material in order not to influence the inductive energy or data transfer.
  • one or more media lines are further provided, for example, an optical conductor 37, in particular a glass fiber rod, the radiation of a radiation source to a light emitting window 38, and one or more fluid lines 39, in particular for the treatment of treatment fluids such as compressed air and / or Water.
  • the at least one fluid conduit 39 is connected to one or more fluid sources and to a fluid delivery device 40 that includes, for example, one or more fluid delivery ports, a mixing chamber, or a spray plate.
  • the fluid dispenser is disposed about the tool receiving opening 16.
  • a tool holding / releasing device 9 for fastening the tool 4 in the hollow shaft 3 and for releasing the tool 4 from the hollow shaft 3 and a first coil or winding 5 are further arranged.
  • the entire tool holding / releasing device 9 is located at the end of the hollow shaft 3 facing away from the tool receiving opening 16.
  • the first spool 5, which is also located at the end of the hollow shaft 3 remote from the tool receiving opening 16, is located in a receptacle or in a cavity 11 within the tool holder / tool holder. Detached release device 9 or in a cavity formed by the tool holder / release device 9 11.
  • the volume of the cavity 11 is sized larger than the volume or the outer circumference of the first coil 5, so that the cavity 11, in particular that part of the cavity 11 which is filled with air, also part of an electrical insulating layer, which is the first coil 5 surrounds.
  • the coil 5 is part of a transmitting and / or receiving unit 61 for non-contact data and / or energy transmission of the handle element. 1
  • the first coil 5 or the transmitting and / or receiving unit 61 is part of a data and / or energy transfer unit 41, which according to the Figures 1 and 2
  • a provided on the tool 4 storage unit 7 includes.
  • the memory unit 7 has a second coil or winding 6 and a memory 42, wherein the memory 42 is designed either as a read-only memory (ROM) or as a read and write memory (RAM).
  • the two coils 5, 6 are non-contact, in particular inductive, coupled to each other, so that energy and / or data between the coils 5, 6 can be transmitted.
  • the first coil 5 can be connected or connected via one or more, for example two, electrical lines 15 to an energy source arranged inside or outside the handle element 1.
  • the electrical energy provided by the power source is inductively transmitted from the first coil 5 to the second coil 6 and further to the memory 42.
  • the memory 42 or an electronic chip comprising the memory 42 can be activated and memory data, for example identification data or operating data of the tool 4, can be read from the memory 42 or memory data, for example data about the operating time, the state of cleanliness or sterility or over the wear of the tool 4, are written to the memory 42.
  • the transmission of the memory data is also carried out inductively via the two coils 5, 6, which now also serve as antennas and one, preferably high-frequency, data transmission, in particular in the radio frequency range, ensure.
  • the data and / or energy transfer unit 41 or the storage unit 7 preferably comprises an RFID chip or RFID tag or an RFID transponder.
  • the storage of the memory data from the memory 42 or, if appropriate, to the memory 42 likewise takes place via the at least two electrical lines 15.
  • the handle element 1 is further provided with a memory unit 50 which has a memory element for storing operating and / or identification data of the handle element 1 and a reading and / or writing device 50A connected to the memory element for reading out and / or writing to the memory element Operating and / or identification data includes.
  • the memory unit 50 is connected via the two electrical lines 15 to a coupling device of the handle element 1, via which a connection to a control and / or supply unit of the handle element 1 can be produced.
  • Two electrical leads 15A connect the memory unit 50 to the memory element and the reading and / or writing device 50A to the first coil 5.
  • the energy and / or Data transfer can either be conducted via the electrical lines 15, 15 A, the energy, in particular electrical energy, obtained from the control and / or supply unit or directly from an energy source and / or with a controller, in particular a microcomputer, the control and / or supply unit connected or connectable and supply the data to the controller or received from the controller.
  • the energy and / or data transfer from or to the memory unit 50 is contactless, in particular inductive, via the first coil 5.
  • the handle element 1 in such a way to a reading and / or transmitting device 52 (see FIG. 3C ) that an inductive coupling of the first coil 5 with another coil 6 'of the reading and / or transmitting device 52 is formed.
  • the memory unit 50 via the electrical lines 15, 15A are supplied with energy, while simultaneously an inductive data transfer between the reading and / or transmitting device 52 and the handle element 1 takes place.
  • an inductive energy transfer between the reading and / or transmitting device 52 and the handle element 1 take place and a wired data exchange via the line 15, which may be formed according to this embodiment, as an optical conductor.
  • the two electrical leads 15 extend inside the handle element 1 and are insulated by insulating means, for example a plastic sleeve, electrically from metallic components of the handle element 1, in particular from the outer sleeve 2. Furthermore, the lines 15 are surrounded by a plastic or metal tube 43 which serves to shield the lines 15 from external interference fields, for example from magnetic fields or electric fields, which originate in particular from an electric motor driving the tool 4.
  • insulating means for example a plastic sleeve
  • a control unit for further processing of the memory data received from the memory 42 and / or for outputting memory data to the memory 42, a control unit, in particular a microcomputer, is provided inside or outside the handle element 1, which is connected via the at least two electrical lines 15 to the memory 42.
  • the control unit preferably receives identification data from the memory 42, which identify the tool 4 inserted into the hollow shaft 3 of the handle element 1 and connected to the memory 42 and which serve to control the motor or the coolant supply driving the handle element 1.
  • the Torque or the speed of the motor or the amount of coolant supplied to the tool 4 limited to maximum values that correspond to the properties of the tool or the requirements of the medical treatment that can be performed with the tool 4.
  • the control unit thus forms according to this particularly preferred embodiment, together with the electrical lines 15 and the data and / or power transfer unit 41 a tool recognition device.
  • the detailed structure of the data and / or energy transfer unit 41 is in particular from the FIG. 2 recognizable.
  • the preferably non-detachable storage unit 7 connected to the tool 4 comprises the second coil 6, the storage 42 and a, in particular rod-shaped, ferrite core 44.
  • the storage unit 7 is located on and / or on the treatment section 4A (see FIG FIG. 1 ) opposite end of the tool 4, wherein parts of the storage unit 7, in particular the ferrite core 44, are sunk in the tool shank or in a receptacle of the tool shank.
  • the entire storage unit 7 is placed on the end of the tool shaft, without causing parts of the storage unit 7 protrude into the tool shank.
  • Fastening means 45 attach the memory unit 7 to the tool 4.
  • the electronic memory 42 is part of an electronic chip which additionally comprises a microcomputer or circuit, for example for reading the data from the memory 42, for powering the memory 42 or possibly for writing data to the memory 42.
  • the data and / or energy transfer unit 41 also comprises the first coil 5 or the transmitting and / or receiving unit 61 arranged immovably in the handle element 1 with respect to the hollow shaft 3.
  • the first coil 5 is located on one Support 13 is mounted, for example, on a flat, in particular plate-shaped or disc-shaped, immovably in handle element 1 or immovably with respect to the hollow shaft 3 arranged carrier 13.
  • the carrier 13 has an opening 14 around which the first coil 5 is arranged and which is dimensioned such that it is at least partially enforceable for the storage unit 7 of the treatment tool 4, so that the first coil 5 and the storage unit 7 of the treatment tool 4, in particular its second coil 6, can be arranged in one another and an inductive energy and / or or data transfer between the two coils 5, 6 is possible or favored.
  • One or more recesses or depressions on the carrier 13 serve to receive or support the first coil 5 and the electric wires 15 connected to the first coil 5.
  • the carrier 13, which is part of an electrical insulating layer surrounding the first coil 5, preferably comprises an electrically insulating material, in particular plastic, glass or ceramic.
  • the first coil 5 is arranged according to an embodiment on the tool holding / releasing device 9 of the handle member 1 facing the end 10 of the hollow shaft 3 outside the axial extent and within the radial extent of the hollow shaft 3.
  • the opening 14 of the carrier 13 and the first coil 5 are arranged concentrically to the central axis 8 of the hollow shaft 3.
  • the tool holding / releasing device 9 is arranged on the tool receiving opening 16 opposite end 10 of the hollow shaft 3 and surrounds this end 10.
  • the tool holding / releasing device 9 includes, inter alia, a bore 17 of the hollow shaft 3 passing through and through the bore 17 in the interior of the hollow shaft 3 protruding mold member 18, a movably arranged, cooperating with the mold member 18 locking sleeve 19 and an actuator 20 for moving the locking sleeve 19.
  • the mold member 18 is formed for example as a sphere, hemisphere, ellipsoid or cylinder.
  • a plurality of mold elements 18, for example three or six mold elements 18, in particular uniformly, are arranged around the hollow shaft 3.
  • the locking sleeve 19 surrounds the hollow shaft 3 and is axially, along the central axis 8 of the hollow shaft 3 slidably.
  • the locking sleeve 19 has a first portion with a first inner diameter and a second portion with a second, larger inner diameter, wherein the second portion is spaced from the outer shell of the hollow shaft 3.
  • the two sections are connected by a short conical section. If the locking sleeve 19 is moved to a position in the, as in FIG.
  • the first portion of the mold member 18 is contacted and presses so far into the bore 17 that a part of the molding element 18 protrudes into the interior of the hollow shaft 3, the mold member 18 contacts the inserted into the hollow shaft 3 tool 4, in particular in one or a plurality of recesses on the tool shank, whereby the tool 4 in the hollow shaft 3 is fixed axially and for transmitting the torque to the tool 4.
  • the mold element 18 If the locking sleeve 19 is displaced into a position in which the second portion of the locking sleeve 19 surrounds the mold element 18, then the mold element 18, with respect to the central axis 8, radially outwardly soft, whereby it no longer protrudes into the recess on the tool shank or into the interior of the hollow shaft 3 and the tool 4 for removal from the hollow shaft 3 releases.
  • At least part of the locking sleeve 19 surrounds the outer shell of the hollow shaft 3 and is according to one embodiment of the inner race of the ball bearing 22, so that the locking sleeve 19 rotates together with the hollow shaft 3.
  • Below the ball bearing 22 are an annular bearing plate 47 and a spring element 25.
  • the spring element 25 which is in particular designed as a leaf spring, biases the locking sleeve 19 in the in FIG. 2 illustrated locking position, in which the tool 4 is fixed in the hollow shaft 3.
  • the user must overcome the spring force of the spring element 25 in order to move the locking sleeve 19 in the direction of the tool receiving opening 16. Since the locking sleeve 19 is connected to the ball bearing 22, the ball bearing 22 and the bearing plate 47 according to the in the FIG. 2 illustrated embodiment also slidably disposed in the handle member 1.
  • the locking sleeve 19, the ball bearing 22, the spring element 25 and the bearing plate 47 are received in a cage 24 which surrounds the hollow shaft 3 and is immovable, in particular non-rotatably received in the handle element 1.
  • the cage 24 has, for example, a cylindrical outer wall which concentrically surrounds the hollow shaft 3 and a bottom plate with an opening for the passage of the hollow shaft 3.
  • the actuator 20 of the tool holding / detaching device 9 includes according to Figures 1 and 2 a push button or pressure cover 12.
  • the pressure cover 12 is at least partially or completely recessed in the outer sleeve 2 of the handle member 1 and displaceable by means of one or more guide elements along the central axis 8 of the hollow shaft 3.
  • the actuating element 20 or the pressure cover 12 comprise an opening 51 closing, in particular curved, cap 58 and two contact elements. The two contact elements are arranged on the immediate outer edge of the cap 58 and thus radially spaced from the locking sleeve 19 or the hollow shaft 3.
  • a receptacle or cavity 11 in which advantageously the first coil 5 and preferably also the carrier 13 and the storage unit 7 of the tool 4 can be accommodated are.
  • the cavity 11 between the tool holding / releasing device 9 of the handle member 1 facing end 10 of the hollow shaft 3 and the pressure cover 12 of the tool holding / releasing device 9 is arranged.
  • the carrier 13 and the first coil 5 are thus received within the tool holding / releasing device 9 or parts of the tool holding / releasing device 9 are arranged on both sides of the carrier 13, whereby in particular the first coil 5 is protected and in addition a particularly compact Structure of the head part 30 is achieved.
  • the coils 5, 6 serve not only as part of the transmitting and / or receiving unit 61 or as part of the data and / or energy transfer unit 41 for contactless, in particular inductive, data and / or energy transfer, but at least one of the coils 5 6 is also part of a thermocouple connection 21 or forms a thermocouple connection 21.
  • the thermocouple connection 21 is used to determine temperature readings of the handle element 1, preferably the outer sleeve 2 or the head section 30 or parts thereof, particularly preferably the tool holding / releasing device 9, the actuating element 20th , the pressure cover 12, at least one bearing 22, 36 or other moving components or moving components contacting components of the handle member 1 or the head portion 30th
  • the coils 5, 6 are used to determine temperature readings, but there are still further, connected to the coils 5, 6 components of the diagnostic or treatment element, for example, for the transmission, conduction, evaluation, reception or the transmission of temperature readings or derived data is used.
  • the electrical leads 15, 15A may be used for routing or transmitting the values / data
  • the memory units 7, 50 for storing or reading the values / data
  • circuits or microcontrollers of the diagnostic / treatment element for processing the values / data
  • the coils 5, 6 or the data and / or energy transfer unit 41 or the transmitting and / or receiving unit 61 are used for the inductive transmission of the values / data. Accordingly, in a preferred operating method of the diagnosis or treatment element, first a temperature measured value is determined by the coil 5, 6 and subsequently transmitted by the coil 5, 6 without contact, in particular inductively.
  • FIGS. 3A 3C show different embodiments of coils or windings 5A-5C which are suitable for the determination of temperature measurements and for the inductive data and / or energy transmission and which can accordingly be used on the handle element 1 or on the tool 4.
  • the coils 5A-5C are made of electrically conductive or metallic coil wire.
  • the coil 5A of FIG. 3A has a first electrically conductive material M1 and a second electrically conductive material M2, so that the thermocouple connection 21 is formed by the first coil or winding 5A.
  • the coil or winding 5B of FIG. 3B has a first electrically conductive material M1.
  • An electrical conductor 23 connected to the coil 5B has a second material M2, so that the thermocouple connection 21 is formed by the first coil 5B and the electrical conductor 23 connected thereto.
  • the coil or winding 5C of FIG. 3C is formed by two partial coils or partial windings 5C1 and 5C2, the partial coil 5C1 having a first material M1 and the partial coil 5C2 having a second material M2.
  • the two sub-coils 5C1, 5C2 are connected to each other at a free end, wherein the two free ends according to the in the FIG. 3C illustrated embodiment are not spirally formed, but in particular by short, straight conductor sections are formed. However, the free, interconnected ends may of course also have other shapes or geometries.
  • the advantage of the particular non-spiral or non-wound formation of the contact point or thermal contact point of the two materials M1, M2, as they are in the FIGS. 3B and 3C is in particular that the contact point or thermal contact point fits into (especially small) spaces in which the entire coil 5C or the partial windings 5C1 and 5C2 find no place.
  • the Figure 3D shows an antenna 62, in particular a rod antenna, which is connected to a source 63, in particular a high-frequency source.
  • the antenna 62 comprises a first material M1 and a second material M2, which serves as a connection to the source 63.
  • the two materials M1, M2 are in turn part of a thermocouple connection 21 for determining a temperature measurement. The resulting due to the temperature difference electrical thermal voltage of the materials M1, M2 can be measured between the contact points K1 / K2.
  • the FIG. 3E shows a dipole antenna or dipole antenna 67 with two antenna arms 67A, 67B and a transmitter / receiver unit 68. At least one of the two antenna arms 67A, 67B comprises a first material M1 and a second material M2, which is part of a thermocouple junction 21 for determining a temperature reading is. Preferably, both antenna arms 67A, 67B comprise a first material M1 and a second material M2, which is part of a thermocouple connection 21, so that temperature measurement values at two different positions can advantageously be measured by means of such a dipole antenna 67.
  • the two materials M1 and M2 are different materials, in particular different metals, so that a bimetallic thermocouple connection 21 is present.
  • one of the two materials M1, M2 comprises copper or an alloy with a high copper content and the other of the two materials M1, M2 another metal or another alloy with nickel, chromium or iron, in particular constantan.
  • a reading and / or transmitting device 52 is shown schematically, which comprises a second coil or winding 6 '.
  • the two coils 5C, 6 ' can be inductively coupled to one another, this being indicated by the arrow 53.
  • the two coils 5A, 5B in the same way with the coil 6 'inductively coupled.
  • an evaluation unit 54 or a control and / or regulating unit, in particular with a microcontroller, connected which provides energy for energy transfer and / or provides data for data transmission and / or receives and / or evaluates.
  • the temperature measured values determined by the thermocouple connection 21 are preferably transmitted.
  • the electrical leads leading away from the coils 5A - 5C may also be used for data and / or energy transfer to the coils 5A-5C or from the coils 5A-5C.
  • FIGS. 4A and 4B show two embodiments of contact areas, contact points or thermal contact points of the materials M1 and M2 of the thermocouple 21.
  • the material M2 is formed as, in particular cylindrical and in cross-section circular, wire 64.
  • the wire 64 is surrounded except for a short portion of an electrically insulating material, for example plastic.
  • the insulating material is preferably formed as a hollow sleeve 55, in which the wire 64 is received.
  • the material M1 is arranged, which in turn is preferably formed as a hollow cylindrical sleeve 56, in which the insulating material and the material M2 are accommodated.
  • thermoelectric voltage of the materials M1, M2 resulting from the temperature difference can be measured selectively between the contact points K1 / K2 and K3 / K4 or between the contact points K1 / K3 and K2 / K4.
  • the two materials M1 and M2 are formed as wires 59, 65 which contact each other with one free end, so that the free ends form the thermal contact point 57B, at which the determination of the temperature measurement takes place.
  • at least one of the materials M1 and M2 is surrounded by electrically insulating material 66 or none of the materials M1 and M2 has an insulating material 66.
  • the (electrical) thermoelectric voltage of the materials M1, M2 resulting from the temperature difference can be measured between the contact points K1 / K2.
  • FIG. 5 is the coil or winding 5C of FIG. 3C and a signal processing device connected thereto:
  • the coil 5C is connected by means of the electrical conductors 23 to a matching network 27, in particular a filter, which filters the temperature measured values obtained from the thermocouple connection 21.
  • a matching network 27 in particular a filter, which filters the temperature measured values obtained from the thermocouple connection 21.
  • an amplifier 28 Connected to the filter 27 is an amplifier 28 for amplifying the temperature readings.
  • the temperature measurement values finally reach an evaluation circuit 46, which evaluates or processes the temperature measurement values.
  • the temperature measured values evaluated or processed in this way can finally be transmitted to a control and / or regulating device 48 which is designed to store the temperature measured value and / or compare it with a temperature limit value and if the limit value is exceeded, for example one, in particular optical or acoustic, To activate display device 49 or act on drive means 32 of the diagnostic or treatment element 1, 4, in particular to brake or stop this, or to interrupt the action of the device 60, 4A for direct or indirect action on a target area.
  • the comparison of the temperature measurement value with a temperature limit value and the possibly resulting actions mentioned above are carried out or triggered by the evaluation circuit 46 or the evaluation or processing of the temperature measurement values is performed by the control and / or regulating device 48 instead of the evaluation circuit 46.
  • At least one of the aforesaid components 23, 27, 28, 46, 48 is used not only for the temperature measured values determined by the thermocouple connection 21, but also for the data and / or energy of the contactless data and / or energy transmission.
  • the diagnostic or treatment element 1, 4 thus comprises at least one common processing and / or evaluation element 23, 27, 28, 46, 48 for the temperature measured values and the data and / or energy of the contactless data and / or energy transmission.
  • the at least one common processing and / or evaluation 23, 27, 28, 46, 48 is preferably used for a bidirectional function, so that data and / or energy from both the coil 5C in the direction or to the evaluation circuit 46 or control and / or control device 48 and in the opposite direction to the coil 5C are transferable.
  • a switching device 26 for selectively transmitting and / or processing the temperature measured value determined by the thermocouple connection 21 and the data and / or energy of Provide contactless data and / or energy transfer.
  • the switching device 26 is designed, for example, such that it transmits or forwards temperature measured values and data and / or energy of the non-contact data and / or energy transmission selectively or with a time offset.
  • the evaluation circuit 46 or the control and / or regulating device 48 are designed to store the temperature profile of at least part of a diagnosis or treatment with the diagnosis or treatment element 1, 4 or display or transmit at the same time or with a time delay.
  • the FIG. 6 shows a coil or winding 5A, as with reference to the FIG. 3A is described.
  • the coil 5A is connected to a device 69 or part of a device 69, which for the simultaneous determination of the temperature reading by the thermocouple connection 21 and non-contact, in particular inductive, transmission of the temperature reading or temperature data based thereon or other data, in particular identification data, operating data or data about the cleaning or care of the diagnostic or treatment element 1, 4, or energy is formed by the coil 5A.
  • the device 69 comprises a filter or signal splitter (signal splitter, signal splitter) 70 which is connected to the coil 5A and which is designed to separate the superimposed signals of the non-contact data and / or energy transfer and the temperature measurement (the temperature measurement values) and in particular to different processing units 71A, 71B, for example, different Circuits, control or regulating units or storage elements supply.
  • the signal divider 70 is in particular designed to separate DC voltage signals, ie the signals of the temperature measurement by the thermocouple connection 21, and AC voltage signals, ie the signals of non-contact, in particular inductive data and / or energy transmission.
  • the signal splitter 70 includes a first, formed by two electrical lines path 72A, which connects the coil 5A to the processing unit 71 A and the AC signals, ie the signals of non-contact, in particular inductive data and / or energy transfer, between the coil 5A and the processing unit 71 A conducts.
  • the processing unit 71 A is accordingly designed for processing the, in particular high-frequency, AC voltage signals.
  • the signal divider 70 comprises a second path 72B formed by two electrical lines, which connects the coil 5A to the processing unit 71B and supplies the DC voltage signals, ie the temperature measurement values determined by the thermocouple connection 21, to the same.
  • the processing unit 71 B is configured to process the DC signals.
  • the path 72A preferably comprises two capacitances C1, C2, the path 72B comprises at least one, preferably two coils L1, L2, but of course other configurations of the filter 70 are also possible.

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  • Health & Medical Sciences (AREA)
  • Oral & Maxillofacial Surgery (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Dentistry (AREA)
  • Epidemiology (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Animal Behavior & Ethology (AREA)
  • General Health & Medical Sciences (AREA)
  • Public Health (AREA)
  • Veterinary Medicine (AREA)
  • Arrangements For Transmission Of Measured Signals (AREA)
EP11166639A 2011-05-19 2011-05-19 Elément de traitement ou de diagnostic médical, notamment dentaire Withdrawn EP2525199A1 (fr)

Priority Applications (1)

Application Number Priority Date Filing Date Title
EP11166639A EP2525199A1 (fr) 2011-05-19 2011-05-19 Elément de traitement ou de diagnostic médical, notamment dentaire

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
EP11166639A EP2525199A1 (fr) 2011-05-19 2011-05-19 Elément de traitement ou de diagnostic médical, notamment dentaire

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2019209637A1 (fr) * 2018-04-25 2019-10-31 Dentsply Sirona Inc. Appareil dentaire et procédé pour une communication d'outil à pièce à main
USD879300S1 (en) 2018-04-25 2020-03-24 Dentsply Sirona Inc. Dental tool reader
USD917434S1 (en) 2018-04-25 2021-04-27 Dentsply Sirona Inc. Dental tool with transponder

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5688120A (en) * 1993-09-27 1997-11-18 Yacker; Miles J. Temperature gauge for drills and method employing same
GB2438877A (en) * 2006-06-07 2007-12-12 Anglia Polytechnic University An environment sensing power tool and control system
EP2233103A2 (fr) 2009-03-26 2010-09-29 W & H Dentalwerk Bürmoos GmbH Pièce à main médicale, en particulier dentaire

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5688120A (en) * 1993-09-27 1997-11-18 Yacker; Miles J. Temperature gauge for drills and method employing same
GB2438877A (en) * 2006-06-07 2007-12-12 Anglia Polytechnic University An environment sensing power tool and control system
EP2233103A2 (fr) 2009-03-26 2010-09-29 W & H Dentalwerk Bürmoos GmbH Pièce à main médicale, en particulier dentaire

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2019209637A1 (fr) * 2018-04-25 2019-10-31 Dentsply Sirona Inc. Appareil dentaire et procédé pour une communication d'outil à pièce à main
USD879300S1 (en) 2018-04-25 2020-03-24 Dentsply Sirona Inc. Dental tool reader
USD917434S1 (en) 2018-04-25 2021-04-27 Dentsply Sirona Inc. Dental tool with transponder

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